DE2116604B2 - Feed device on cold pilgrim machines - Google Patents

Description

2 I 16

About the gravity of the hub at I'tiukt 12 and thus the (iiolk of the umnielien from the Vorschuhschluien 14 and 15 Wal / gutvorschube.s with the same treatment »Making enseheibe 9 changeable is the fulcrum Il of the two-armed lever IO mounted in a slide 16 and adjustable in its position for the / wipe the Abi.isirolle 17 of the two-armed lever JO and the cam 9 required power and l'urmschluü care! i; i the example shown a l'eder 18 This task can of course also be assigned to others Way, for example by a / wide cam will.

The stroke movement initiated at point 12 with each rotation of the cam disk 9 over a certain angle of rotation, the so-called switching angle, is superimposed on a constant rotation of the feed spindle 13. This is also removed from the drive shaft 4 by a gear wheel 19 and initially goes via a gear wheel 20 to an infinitely variable range 21. V'di! here, üis λ 1 rc! Jjs DrehonuTu in the '.- ■' ■■ V »i'iidestufe, consisting .u: s gears 22. 21. 24. 2i and 2b sii'A ie one Sll · ·; 111klif> ρiuη. ^ 27 inserted '. per me scrult position tier clutch 2 ^Ί ν. ird Jas \ ι · ίΐ "ΐ stnk-nlose gear 2i output torque« ■ η ι v. ed cr via the gears 22. 23 and 24 uder u '.- er ■ ·' «lh- Zai.nradci 25 us! 2 (S .111 the gearwheel 28 white, cr.eej / even, -.eiches the three-way movement on its part via gears, τ 2S and. '<■) aiii the feed spindle 13 via Iraci. Di.me with the 27 created I 'imchaltinogliehkeii <ier torque transfer travuinj ;; ic via the gears 2') and 2b or 22. 23 and 24 - - the gears that are switched off run along idle
Rrhaitcn Jas gear 28 and with it the presetting spin- <! el Ii in different Drel'.richiungen.

The function of the above-described- [innchhin ^: im << f.;! i; i: ndc:

D.is v <ii! the rollers 3 to be rolled over the mandrel 31 Whale / well 1 is alternated by a dei Viirschiibschütten 14 or 15 at a certain time. the manual transmission 4 "described in dcf above 171 it is adjustable. jerked forward. In the drawing, the tensioning device 32 of the pre-assembly slit 14 is closed, which is otherwise a ». · Has threaded nut 33 firmly connected to it, which establishes the connection with the feed spindle 13 Provides. Home / wide Providence 15 is a wide one right threaded nut 35 is provided, as well as another «: Clamping device 34. which is open.

The function of the line described above is as follows: v>

Because of the stuck in the feed chute! 4 (it -windemtitter 31 acts through the gear 30 Help the feed spindle 13 acting rotary movement ek'tari, that during the rolling process the Feed spindle Ί 3 out of threaded nut 33 turns, from M'h in an i lubbewunt; of the point ·. ", 12 makes noticeable. This Hdobcwcj / ung can / Wei.irmige I lcbel 10 thus geriai. follow. dali you: Cam 9, the follower roller 17 by the Feed spindle 13 lets avoid given Mali, fio so that the feed slide 14 is stationary during this time.

In the further course of the movement, namely in the Be The "Vorichubschlitten" becomes rich in the sound angle in which the working caliber of the WuI / .en 3 release the rolling stock 1 14 from the rotational movement of the feed spindle 13 and from the movement via the cam 9 generated feed movement of the feed screw 1J a jerky forward movement in the rolling direction Splits.

During the feed movement of the feed screw 14 and the simultaneous feed movement of the feed screw 13, the feed screw 15 Jt only performs a slight return movement, depending on its speed and depending on the stroke of the feed screw 13, after coordinating the thread pitch of the corresponding counter-rotating thread section of the feed screw 13, as the Stroke movement of the feed spindle 13 of the return movement, which results from the rotation of the feed spindle, is directed in the opposite direction. Will be called the interpretation of the Kaltpi! ! ¹ Ci machine for a certain operating state iiie the feed speed; dor Vu M.huL> spindle 13 is set during the stroke resulting from the cam disk 9 equal to the travel equilibrium imparted to the feed loops 14 and 15 from the rotation of the feed spindle 13! push, hlittens 14 theoretically m rest.

Sob; tlr! When the feed movement of the feed slide 14 has ended, the feed spindle rotates Π ν. 'Oiler out of the threaded nut 33 of the now firmest pre-shoe slide 14 and now perform 1 cmc movement. which is opposite to the direction of the whale and diiiinl in the direction of the return movement of the feed carriage 15. In this case, this is added to the retraction movement resulting from the rotation of the feed spindle 1.3 and the movement of the feed slide 15, and the latter now moves back at increased speed while the feed spindle 14 is at a standstill. The two forward lift carriages 14 and 15 therefore perform their travel movements alternately and not at the same time as in known devices. Because the feed 15 sits on the part of the feed spindle 13 which has the same pitch but the opposite pitch, it performs a constant backward movement when the tensioning device 34 is obviously disabled with changing speed, the size of which corresponds exactly to the feed movement of the feed slide (4) per revolution of the cam disk 9. In this way, it is achieved that at the same time as the F. by then the feed slide 14 which is in the open position, the retracting feed slide 15 has also reached its final position the feed plate, which was previously retracted with the open position, now takes over the feed.

1 sheet of drawings

Claims (1)

Claim ·. Feed device on cold pilger machines with a reciprocating roll stand and at least:. a feed spindle with two equal thread lengths in opposite directions of inclination and / as a result, axially one behind the other movable feed carriages, with a gearbox connected to the main drive of the cold pilgrim machine with a reversing stage, the axial movement of the pre-feed carriage by a cam operated synchronously by the main drive and a two-armed lever a jerky axial movement can be overlaid with scanning roller, characterized in that for jerky feed of a feed slide (14,15) the feed spindle (13) via the two-armed lever (10) - as known from discontinuous Kulrprlgerrrmchinert - axially ver m se his . · ": Bar isi. The invention relates to a feed device on potash pilger machines with a reciprocating roll stand and at least one feed spindle with two thread lengths of the same size in opposite directions of stiffening and thus moving in opposite directions. axially aligned feed slides. with a gearbox connected to the main drive of the Kalipilgerni machine with a reversing stage, whereby the axial movement of the prop ¹ ... shedding through a cam disc operated synchronously with the main drive and a two-armed lift! jerky axial movement can be superimposed with scanning roller fine. It is well known that continuously operating cold pilgrim machines, in order to avoid shutting down the system, two feed slides that alternate the Take over whale / good feed: you also have two mandrel abutments for inserting the rolling stock (lobes). The movement of the carriage takes place in jerks, either across from each other independent drives by means of switching and reversing gears and axially separated feed spindles or via gearboxes, the two feed spindles arranged parallel to one another in the rolling direction drive, the thread of which has an opposing pitch direction each with a pre-lifting slide; o move. The invention is based on the last-mentioned Ausfühnn g, known from DL-PS 74 224. These known solution consists essentially in the fact that a basic speed of the feed spindles via a An additional speed is superimposed on the cam provided in the upstream gearbox. Included of course, the masses of the intended for transferring the rotational movement to the feed spindle Transmission elements are also accelerated. It is also /.u realize that when using of two feed slides in the sense of DL-PS 74 224 the return transport of the second feed slide in the sense of DT-AS 1 031 249, i.e. with a cold pilgrim machine with an axially movable one Feed screw and a separate reverse drive, is not applicable, which ultimately leads to the for continuous cold pilgrim machines, which was laid down in DT-PS 74 224, came up. While designing the feed device of a cold pilgrim machine according to the DT-AS I OJl 249 the transmission elements and transmission means only to the accelerated mass of the single feed slide and the associated Parts had to be coordinated, was in addition to the feed device according to DL PS 74 224 Note that with the feed of the working feed slide, the mass of the mn has the same speed the jerky retracting feed had to be accelerated. This resulted to a correspondingly stronger interpretation of the Vor thrust device and all transmission means and ultimately to an increase in weight and too an increased space requirement of the feed device. The object of the invention is to provide a feed device, to simplify functionally according to the genre of the invention and a reduction of to be accelerated Save masses of weight and space. (But this task is there, and there is a ruckweivjη Feed each vain feed slide the feed spindle via the two-armed lever - as known from the continuous Kalipilgernidschmcii iixiai \ can be moved. Ks is thereby achieved! That the jerky forward movement of the feed slide is unmitieibar v ('> n of the cam, which causes the axial stroke of the feed spindle, n the feed spindle is initiated, and not as an additional rotation of the feed spindle, but as an axial Movement This axial: ¹ movement is superimposed on the forward movement of the working feed slide from the continuous rotation of the feed spindle. At the same time, and this is the decisive technical advance of the invention, the second section of the feed spindle assigned to the retracting feed slide rotates from the V01- - .. -hubschliiten out, so that it is accelerated only insignificantly during the advance of the working feed block. The retracting feed slide thus does not perform a movement synchronous to the advancing feed slide, but a tumbling movement. The acceleration of the retracting feed chlittens is thus shifted essentially in the feed intervals of the working feed slide and thus leads to an equalization of the load on the main drive and the other drive elements. The figure shows an exemplary embodiment of the invention. Since the rolling stock I the feed can be given, as is known, only during the time during which the Working caliber of the rolls 3 located in the roll stand 2 release the rolling stock, the drive is the Feed device, which is made via the drive shaft 4, via the bevel gear pair 5 from the drive rods 6 removed the crankshaft 7 causing the to-and-fro movement of the rolling stand 2. Via a further pair of bevel gears 8, the drive shaft 4 displaces the one in the gearbox of the gearbox Cam 9 mounted with turning stage in rotation. This has the task of a two-armed lever 10, which has its pivot point in Il, in direct dependence from the crank position of the crankshaft 7 to convey its movement, which is at point 12 as a lifting movement acts on the axially displaceably mounted feed spindle 13.